Hi everyone,
I am the scientist behind oceamo, and also the person who develops methods and runs the spectrometers (among other instruments). If you are having questions regarding the "everyday practice" in our lab i am happy to answer them.
With ICP it is very difficult to give "global" LLOD/LLOQ data, since those values always depend on sample composition. For example higher phosphorus content will influence our ability to measure iodine, since both emission lines are very close together at 178 nm. One has to be careful since some published LLOD/LLOQ data is very unrealistic and far beyond the capabilities of ICP-OES. For most important trace elements we are in the 0,2-2 ppb area regarding LLOD. Just let me know if you are interested in data of specific elements.
Of course we validate our methods with control samples and keep a close eye on linearity and stable machine operation (often also using internal standardization). Also we do measure most trace elements at several wavelengths (if the element has several sensitive emission lines), so we can rule out interference by other elements, which is critical in ICP-OES.
Machines are serviced regularly and key components (like the plasma torch) are replaced regularly, since measuring seawater is quite "stressful" for the equipment.
Of course the autosampler/sample uptake system is rinsed between samples to avoid carryover from sample to sample.
Control samples and ring trials showed that we produce high quality data, and are not a "random number generator"
Sure coming close to the LLOD RSDs are higher, which is the case for every analytical procedure. That is the reason why it does not make sense to report values with several decimals after the comma.
Best regards,
Christoph